DE3348068C2 - Electromagnetic relay whose changeover spring has a special construction - Google Patents

Abstract

In the case of an electromagnetic relay, the changeover spring can be replaced in that it has an injection-moulded plastic base piece which is detachably mounted, such that it cannot be rotated or displaced, in an opening which is arranged at the armature rotation point. The axial protection against the base piece being displaced in the region of the opening is formed in that a first armature plate is arranged on that end of the base piece which engages in the opening and is arranged on the rear of the plate of the rocker such that it is protected against displacement, while a permanent magnet is arranged underneath the first armature plate, which permanent magnet, for its part, is covered by a second armature plate which is protected against axial displacement and is detachably attached to the rocker by means of latching tabs which are arranged on the side surfaces of the rocker.

Description

The invention relates to an electromagnetic relay according to the preamble of the claim. An entrance named relay is, for example, with the same Chen applicant declining DE-OS 30 21 184 known been. This relay is bistable and Anker is designed as a movable seesaw. The on the Rocker switch spring arranged together with the Seesaw a considerable mass. The center of mass of the entire arrangement is not in the fulcrum, but removed from it, creating an increased moment of inertia arises and the switching behavior of the relay can be improved is.

According to the subject of parent application P 33 23 266.0-34 had been suggested to be on the switch spring injected plastic footpiece to arrange, which in an opening of the anchor arranged at the pivot point of the armature Anchor can be detached from rotation and displacement is consolidated.

The changeover spring can thus be replaced.

The invention has for its object a particular to ensure easy interchangeability of the changeover spring Afford.

To achieve the object, the invention is thereby characterized in that the changeover spring is a molded part Has plastic footpiece, which in one turn opening of the armature at the point of the armature and is releasably secured against displacement, and that the axial locking of the foot piece in the area of the Opening of the plate is formed in that in the Opening engaging end face of the foot piece a first Anchor plate is arranged, which is secured against displacement the back of the plate of the rocker is arranged that below the first anchor plate is a permanent magnet is arranged, which in turn by a second anchor plate is covered by means of on the side surfaces of the Rocker arranged locking lugs axially secured against displacement and is releasably attached to the rocker.

The essential feature of the present invention is therefore that Interchangeability of the changeover spring in the area of the armature. The changeover spring is with a radial and axial Protection against displacement secured in the anchor. The present de Invention is therefore both for monostable and for bistable relays can be used, d. that is, the anchor can be made from one There are metal parts (e.g. for a monostable relay), while in the execution of a bistable relay the armature is designed as a pivotable rocker, which between one the same anchor plates has a permanent magnet. With the detachable attachment of the changeover spring in the area the anchor or the seesaw is the main advantage aims that the pivot ver close to the center of mass is placed and the switching behavior of the relay thereby favorable  being affected. The detachable attachment of the changeover spring in the area of the anchor or the rocker can ver be solved in various ways. It is only important that the changeover spring can be replaced at any time and that a radial and axial displacement protection is guaranteed. This makes it possible, for example, to build a relay to build box-like and a switch spring special Replace construction with another switch spring.

It is important here that the switch spring is molded Has plastic footpiece, which in an opening the rocker is radially and axially secured against displacement is.

A preferred embodiment of a radial displacement Fuse is that at the back of the foot projections protruding to the side are arranged, that the foot piece in a twisted position through the Opening of the anchor or the rocker fits and that in the order 90 ° rotated position of the foot with its Protrusions behind assigned undercuts in the Be richly engages the plate of the anchor or the seesaw.

The axial displacement lock is now formed by that on the front of the foot engaging in the opening piece a first anchor plate is arranged, which differ secured on the back of the rocker plate is that a perma below the first anchor plate Nentmagnet is arranged, which in turn from a two ten anchor plate is covered, which by means of the Side surfaces of the rocker arranged locking lugs axially ver are secured against sliding and releasably attached to the rocker. To disassemble the changeover spring must first of all the locking plate detached from the rocker  to remove the permanent magnet and to then the anchor on the front of the foot piece remove plate. Only then can the foot piece of the order shift spring axially shifted a short distance be rotated so that from the opening of the seesaw to be pulled out.

In the following, the invention is based on only one Execution path illustrating drawings explained in more detail. It shows

Fig. 1 side view of a bistable relay,

Fig. 2 side view of the anchor with inserted rocker switch-over,

Fig. 3 shows a 90 ° rotated view compared to Fig. 2,

Fig. 4 side view of the armature rocker without switch-over,

Fig. 5 end view of the armature rocker,

Fig. 6 top view of the armature rocker,

Fig. 7 side view of the switch spring,

Fig. 8 front view of the switching spring.

The relay consists of a cover 1 , with a spring bracket 2 , which has a contact carrier 3 , which has three pieces of clamping screws 4 and three pieces of hollow terminals 5 . The contact carrier 3 consists at its upper part of a bent metal bracket, which merges into a fixed contact 6 .

There is also a further contact carrier 7 , which also has a fixed contact 8 . Furthermore, there is a changeover spring 9 , which is designed as a bridge contact, ie it always has contact with a fixed center contact, the bridge spring is arranged at the free end of a stamped part 10 and is seated with its foot piece in a rocker 11 , which plate is pivotable in a bearing 12 , which is riveted to the magnetic part, is attached.

To stabilize the housing, an outer, circumferential bracket 13 made of plastic is provided. In the housing there is also a relay coil 14 with connections 15 and 16 . The relay coil 14 acts on two yoke plates 17, 38 . The rocker 11 is extended via a handle 18 and reaches through a corresponding recess 19 in the cover 1 , so that it can be operated manually.

According to FIGS. 2 and 3, the rocker preferably consists of a plastic part with an elongated plate 20 into which an opening 21 is embedded. In the opening 21 , the order switch spring 9 sits with a foot made of insulating material 22nd It is important here that the stamped part 10 is fully surrounded by the plastic material and the order switching spring 9 is introduced by a rotary movement into the recess 21 on the rocker 11 . The rotational movement is in the direction of arrow 23 and the foot piece is inserted into this recess in the manner of a bayonet coupling. The recess is seen with an undercut 24 ver, in which the foot 22 of the switch spring engages. The undercut 24 is shown enlarged in FIG. 6 and is shown in more detail there.

The rocker 11 also consists of two lateral bearing arms 25 and 26 ; on each bearing arm projecting bearing bolts 27, 28 are arranged.

Furthermore, at each bearing arm 25, 26 extended locking lugs 29, 30 are arranged, the function of which will be described later. To axially secure the foot piece 22 so that it does not fall out in the direction of arrow 31 , an anchor plate 32 is arranged behind the foot piece 22 in the area on the rear of the bearing plate 20 of the rocker 11 , in which bores are arranged, which are arranged on correspondingly arranged locking pins 33, 34 of the plate 20 rests. Furthermore, a permanent magnet 35 is attached to the back of the bearing plate 20 , which in turn is held by a double-T-shaped anchor plate 36 from the back. The anchor plates 32, 36 are exactly the same. The anchor plate 36 is held by the locking lugs 29, 30 of the rocker 11 . Thus, the magnet 35 and the first armature plate 32 are clamped axially against the changeover spring 9 . The latching lugs 29, 30 are snapped onto the corresponding bearing plate 36 according to FIG. 3 with their latching openings. Furthermore 4-6, the bearing pin 27, 28 and the Hinterschnei are shown in FIG. Manure 24 in the region of the recess 21 visible. In Fig. 7 and 8, the switch-over is shown in more detail. It is important that there are lower projections 37 in the foot piece 22 , which engage in a rotary movement in the undercuts 24 , which are circular in the area of the recess 21 . As a result, the entire switching spring is secured against radial rotation and the axial displacement protection is effected by the bearing plate 32 arranged behind it with the magnet 35 and the white bearing plate 36 , which cooperates with the detents 29, 30 .

Instead of fastening the changeover spring in the manner of a bayonet coupling, it is of course possible to also achieve other releasable fastenings of the changeover spring with its foot piece 22 in the area of the opening 21 via slots with corresponding latches.

When running with a bistable relay results the additional advantage that the assembly of the anchor plates and the permanent magnet is very simple.

With a monostable relay, no rocker is required Permanent magnet and bearing plate but it's a one There is a metal anchor in which the switch spring is releasably used in the same manner described.

As a variant, this relay can also be designed Design with a work contact, which then outside lying contact carrier with the contact bridge bridged. The contact distance therefore doubles compared to the one-time switchover variant.

• Drawing legend 1 cover
  2 spring bracket
  3 contact carriers
  4 clamping screw
  5 hollow clamp
  6 fixed contact
  7 contact carrier
  8 fixed contact
  9 changeover spring
  10 stamped part
  11 seesaw
  12 bearing plate
  13 brackets
  14 relay coil
  15 connection
  16 connection
  17 yoke sheet
  18 handle
  19 recess
  20 plate
  21 opening
  22 foot piece
  23 direction of arrow
  24 undercut
  25 bearing arm
  26 bearing arm
  27 bearing bolts
  28 bearing bolts
  29 latch
  30 latch
  31 arrow direction
  32 anchor plate
  33 locking pin
  34 locking pin
  35 permanent magnet
  36 anchor plate
  37 head start
  38 yoke sheet

Claims (1)

Electromagnetic relay, consisting of a drive system with excitation coil and yoke plates, which form a closed, magnetic circuit with a swiveling armature, the armature being connected to a changeover spring, the contacts of which cooperate with fixed contacts on the spring bracket, characterized in that the Changeover spring ( 9 ) has a molded-on foot piece ( 22 ) made of plastic, which is secured in a manner arranged in the pivot point of the armature opening ( 21 ) of the armature against rotation and displacement, and that the axial displacement lock of the foot piece ( 22 ) is rich in loading Opening ( 21 ) of the plate ( 20 ) is formed in that a first anchor plate ( 32 ) is arranged on the end face of the foot piece ( 22 ) engaging in the opening ( 21 ) and secured against displacement on the rear side of the plate ( 20 ) of the rocker ( 11 ) is arranged that a permanent magnet ( 35 ) is arranged below the first anchor plate ( 32 ) i st, which in turn is covered by a second anchor plate ( 36 ) which is axially secured against displacement and releasably secured to the rocker ( 11 ) by means of locking lugs ( 29, 30 ) arranged on the side surfaces of the rocker ( 11 ).